Personalized Device and Smartphone App
Fay Misichroni, ICCSPASSME CoP, Amsterdam, 16/03/2017
A quick reminder• Objectives
• to define and develop the passenger psychological model based on biometric measurements
• to define the set of sensors needed for obtaining both the necessary biometric and localisation information for each passenger
• to integrate all sensors in a comprehensive and efficient way creating a passenger personalised system
• to develop a smartphone application that will be the main information interface for the passenger while serving as communication gateway
• to provide the necessary incentives schemes for the take-up of the PASSME system
Our Vision• A mix of a fitness/healthcare app and a airport/airline app• Views
Personal travel information Localization and navigation on the airport Stress assessment Mood assessment Baggage tracking Motivation and incentives
• Building a “gamification” aspect in the incentives scheme
Preliminary Results – Stress and Destress
App features and device selection
Mood and Stress estimation
Impact• Enable passengers to move quickly and stress-free through the
airport, by providing guidance and necessary gate information. • Enable the passenger to spend his/her time more pleasantly in
the airport, while at the same time ensuring that he/she will not be delayed for the flight
• Enable the airport system to know its inhabitants stress and destress levels
• Enable the passenger to be informed about the wareabouts of his/her luggage
PASSME Wrist Bands
PPG (HR, HRV) EDA 3-axis accelerometer Infrared thermopile
API available Very expensive
PPG (HR, HRV?) Accelerometer
Compatibility with Google Fit (Android) and Health Kit (iOS)
Low cost
Features (at least HR) Cost Available API Connectivity with
smartphones
Real time transmittance No need for internet access Comfort
Criteria for Choosing Wearable Devices in PASSME
Empatica E4 Sony SmartBand 2